[시장보고서]세계의 임피던스 기반 TEER 측정 시스템 시장(2025-2032년) : 업계 분석, 규모, 점유율, 성장, 동향, 예측

세계의 임피던스 기반 TEER 측정 시스템 시장(2025-2032년) : 업계 분석, 규모, 점유율, 성장, 동향, 예측

Impedance Based TEER Measurement Systems Market: Global Industry Analysis, Size, Share, Growth, Trends, and Forecast, 2025 - 2032

상품코드 : 1708007

리서치사 : Persistence Market Research

발행일 : 2025년 04월

페이지 정보 : 영문 180 Pages

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한글목차

세계 임피던스 기반 TEER 측정 시스템 시장 규모는 2025년에 8,310만 달러에 달할 전망으로, 2025-2032년의 예측 기간 동안 6.0%의 연평균 복합 성장률(CAGR)로 성장하여 2032년에는 1억 2,470만 달러에 달할 것으로 예측되고 있습니다.

임피던스 기반 경상피 전기저항(TEER) 측정 시스템 시장은 생물의학 및 제약 연구에서 정확하고 비침습적인 실시간 평가 도구에 대한 수요가 증가함에 따라 큰 성장세를 보이고 있습니다. 질병 모델링과 같은 용도에 필수적인 세포 배리어 기능과 무결성 연구에 매우 중요합니다.

세계의 임피던스 기반 TEER 측정 시스템 시장은 여러 수렴 요인에 의해 확대되고 있습니다. in-vitro 검사 도구에 대한 수요가 증가하고 있으며, TEER 시스템은 세포층의 무결성을 모니터링하는 비파괴적이고 재현 가능한 접근법을 제공합니다. 게다가, 동물 실험에 대한 우려 증가와 윤리적 연구 관행으로의 전환이 제약회사나 생명공학 기업의 TEER 시스템 채용을 더욱 뒷받침하고 있습니다.

비록 큰 성장이 예상되지만 임피던스 기반 TEER 측정 시스템 시장은 일정한 제약에 직면하고 있습니다. 프로토콜이 표준화되지 않았으며 데이터 분석에 편차가 있어 보다 광범위한 보급을 방해할 수 있습니다.

이 시장은 특히 인간의 생리 기능을 재현하는 장기 칩과 미세유체 기반 모델에 대한 수요가 높아지고 있기 때문에 충분한 성장 기회를 제공합니다. 생명공학과 제약 부문이 급속히 발전하고 있는 아시아태평양이나 라틴아메리카의 신흥국은 잠재력을 보유하고 있습니다. 제조업체와 학술 연구센터나 임상 연구센터와의 전략적 제휴도 기술 혁신을 촉진하여 제품 접근성을 높일 가능성이 있습니다. 또한, in-vitro 시험이나 대체 시험법에 대한 장려 정책이 시장 확장을 한층 더 자극할 전망입니다.

이 보고서는 세계의 임피던스 기반 TEER 측정 시스템 시장을 조사했으며 지역별 동향, 시장 진출기업 프로파일 등의 정보를 제공합니다.

시장 점유율 분석(2025년)
시장 구조
기업 프로파일(상세 - 개요, 재무, 전략, 최근 동향)
- nanoAnalytics GmbH
- World Precision Instruments
- Applied BioPhysics, Inc.
- Merck KGaA
- Sciospec Scientific Instruments GmbH
- Axion BioSystems, Inc
- SynVivo, Inc.
- MIMETAS
- TissUse GmbH
- Locsense
- Agilent Technologies, Inc.
- Corning Incorporated.
- ibidi GmbH
- Greiner Bio-One International GmbH
- Kirkstall Ltd
- Prime BioScience PTE LTD
- Courage Khazaka electronic GmbH
- 기타

제14장 부록

CSM

영문 목차

영문목차

Persistence Market Research has recently released a comprehensive report on the global Impedance-based TEER Measurement Systems Market, providing an in-depth analysis of key market dynamics, including driving forces, emerging trends, opportunities, and challenges. This report offers a detailed understanding of the market landscape, helping stakeholders make well-informed decisions.

Key Insights:

Impedance-based TEER Measurement Systems Market Size (2025E): US$ 83.1 Mn
Projected Market Value (2032F): US$ 124.7 Mn
Global Market Growth Rate (CAGR 2025 to 2032): 6.0%

Impedance-based TEER Measurement Systems Market - Report Scope:

The impedance-based Trans-Epithelial/Endothelial Electrical Resistance (TEER) measurement systems market is experiencing significant momentum, driven by the growing demand for accurate, non-invasive, and real-time assessment tools in biomedical and pharmaceutical research. These systems are pivotal in studying cell barrier function and integrity, which are essential in applications such as drug permeability studies, toxicology, tissue engineering, and disease modeling. As life sciences research accelerates globally, the need for high-throughput and precise impedance-based TEER technologies is on the rise, particularly among pharmaceutical companies, academic institutes, and CROs.

Market Growth Drivers:

The global impedance-based TEER measurement systems market is expanding due to multiple converging factors. An increasing emphasis on drug discovery and personalized medicine is pushing demand for more sophisticated in vitro testing tools, where TEER systems provide a non-destructive, reproducible approach to monitoring cell layer integrity. The growing investments in organ-on-chip technologies and 3D cell culture models have significantly elevated the importance of TEER in real-time barrier function monitoring. Additionally, rising concerns about animal testing and a shift toward ethical research practices are further boosting the adoption of TEER systems across pharmaceutical and biotechnology firms. Expansion of academic research and government-funded health initiatives worldwide is also contributing to this upward trajectory.

Market Restraints:

Despite strong growth prospects, the impedance-based TEER measurement systems market faces certain limitations. High initial investment and the cost of maintenance for advanced TEER equipment can be a barrier for small- and medium-scale research institutions, particularly in developing economies. Additionally, the lack of standardization in TEER measurement protocols and the variability in data interpretation may hinder broader adoption. Furthermore, limited awareness and technical expertise in using impedance-based systems, especially in underdeveloped regions, restrict the market's potential growth.

Market Opportunities:

The market offers ample growth opportunities, especially with the rising demand for organ-on-chip and microfluidic-based models that replicate human physiology. Advancements in electrode design, miniaturization, and integration with automation and AI-based data analysis are expected to enhance system accuracy and throughput, opening doors to new applications. Emerging economies in Asia-Pacific and Latin America, where biotechnology and pharmaceutical sectors are rapidly evolving, represent untapped potential. Strategic collaborations between manufacturers and academic or clinical research centers can also drive innovation and widen product accessibility. Additionally, regulatory encouragement for in vitro and alternative testing methods will further stimulate market expansion.

Key Questions Answered in the Report:

What are the primary factors driving the global impedance-based TEER measurement systems market's growth?
Which regions and application areas are witnessing the most rapid adoption of TEER systems?
How are emerging technologies and ethical research practices influencing the market landscape?
Who are the leading players in the TEER systems market, and what are their growth strategies?
What is the future outlook for the TEER measurement systems market in the context of organ-on-chip and personalized medicine?

Competitive Intelligence and Business Strategy:

Leading companies in the global impedance-based TEER measurement systems market, such as nanoAnalytics GmbH, Merck KGaA, Agilent Technologies, Inc., and Sciospec Scientific Instruments GmbH, are focusing on innovation and strategic collaborations to enhance their product portfolios. These firms are investing heavily in developing more compact, user-friendly, and high-precision TEER systems that can cater to both academic and commercial research settings. Strategic partnerships with pharmaceutical companies and CROs are being leveraged to expand market reach. Furthermore, integration of TEER systems with advanced cell culture platforms and microfluidics is seen as a key strategy to remain competitive in a rapidly evolving biomedical research landscape.

Companies Covered in This Report:

nanoAnalytics GmbH
World Precision Instruments
Applied BioPhysics, Inc.
Merck KGaA
Sciospec Scientific Instruments GmbH
Axion BioSystems, Inc
SynVivo, Inc.
MIMETAS
TissUse GmbH
Locsense
Agilent Technologies, Inc.
Corning Incorporated

Market Segmentation

By Product:

TEER Measurement Systems
Consumables
Electrodes & Probes
Cell Culture Membranes
Buffers
Others

By Application:

Barrier Integrity Assessment
Drug Permeability Studies
Tissue Engineering
Toxicology
Others

By End-User:

Pharmaceutical and Biotechnology Companies
Contract Research Organizations
Academic and Research Institutes

By Region:

North America
Europe
East Asia
South Asia and Oceania
Latin America
Middle East and Africa

1. Executive Summary

1.1. Global Impedance-based TEER Measurement Systems Market Snapshot, 2025-2032
1.2. Market Opportunity Assessment, 2025-2032, US$ Mn
1.3. Key Market Trends
1.4. Future Market Projections
1.5. Premium Market Insights
1.6. Industry Developments and Key Market Events
1.7. PMR Analysis and Recommendations

2. Market Overview

2.1. Market Scope and Definition
2.2. Market Dynamics
- 2.2.1. Drivers
- 2.2.2. Restraints
- 2.2.3. Opportunity
- 2.2.4. Challenges
- 2.2.5. Key Trends
2.3. Macro-Economic Factors
- 2.3.1. Global Sectorial Outlook
- 2.3.2. Global GDP Growth Outlook
2.4. COVID-19 Impact Analysis
2.5. Forecast Factors - Relevance and Impact

3. Value Added Insights

3.1. Product Adoption Analysis
3.2. Technological Advancement
3.3. Regulatory Landscape
3.4. Value Chain Analysis
3.5. Product USP Analysis
3.6. Key Deals and Mergers
3.7. PESTLE Analysis
3.8. Porter's Five Force Analysis

4. Price Trend Analysis, 2019-2032

4.1. Key Highlights
4.2. Key Factors Impacting Product Prices
4.3. Pricing Analysis, By Product
4.4. Regional Prices and Product Preferences

5. Global Impedance-based TEER Measurement Systems Market Outlook:

5.1. Key Highlights
- 5.1.1. Market Volume (Units) Projections
- 5.1.2. Market Size (US$ Mn) and Y-o-Y Growth
- 5.1.3. Absolute $ Opportunity
5.2. Market Size (US$ Mn) Analysis and Forecast
- 5.2.1. Historical Market Size (US$ Mn) Analysis, 2019-2024
- 5.2.2. Current Market Size (US$ Mn) Analysis and Forecast, 2025-2032
5.3. Global Impedance-based TEER Measurement Systems Market Outlook: Product
- 5.3.1. Introduction / Key Findings
- 5.3.2. Historical Market Size (US$ Mn) and Volume (Units) Analysis, By Product, 2019-2024
- 5.3.3. Current Market Size (US$ Mn) and Volume (Units) Analysis and Forecast, By Product, 2025-2032
  - 5.3.3.1. TEER Measurement Systems
  - 5.3.3.2. Consumables
    - 5.3.3.2.1. Electrodes & Probes
    - 5.3.3.2.2. Cell Culture Membranes
    - 5.3.3.2.3. Buffers
    - 5.3.3.2.4. Others
- 5.3.4. Market Attractiveness Analysis: Product
5.4. Global Impedance-based TEER Measurement Systems Market Outlook: Application
- 5.4.1. Introduction / Key Findings
- 5.4.2. Historical Market Size (US$ Mn) Analysis, By Application, 2019-2024
- 5.4.3. Current Market Size (US$ Mn) Analysis and Forecast, By Application, 2025-2032
  - 5.4.3.1. Barrier Integrity Assessment
  - 5.4.3.2. Drug Permeability Studies
  - 5.4.3.3. Tissue Engineering
  - 5.4.3.4. Toxicology
  - 5.4.3.5. Others
- 5.4.4. Market Attractiveness Analysis: Application
5.5. Global Impedance-based TEER Measurement Systems Market Outlook: End User
- 5.5.1. Introduction / Key Findings
- 5.5.2. Historical Market Size (US$ Mn) Analysis, By End User, 2019-2024
- 5.5.3. Current Market Size (US$ Mn) Analysis and Forecast, By End User, 2025-2032
  - 5.5.3.1. Pharmaceutical and Biotechnology Companies
  - 5.5.3.2. Contract Research Organizations
  - 5.5.3.3. Academic and Research Institutes
- 5.5.4. Market Attractiveness Analysis: End User

6. Global Impedance-based TEER Measurement Systems Market Outlook: Region

6.1. Key Highlights
6.2. Historical Market Size (US$ Mn) and Volume (Units) Analysis, By Region, 2019-2024
6.3. Current Market Size (US$ Mn) and Volume (Units) Analysis and Forecast, By Region, 2025-2032
- 6.3.1. North America
- 6.3.2. Europe
- 6.3.3. East Asia
- 6.3.4. South Asia and Oceania
- 6.3.5. Latin America
- 6.3.6. Middle East & Africa
6.4. Market Attractiveness Analysis: Region

7. North America Impedance-based TEER Measurement Systems Market Outlook:

7.1. Key Highlights
7.2. Historical Market Size (US$ Mn) and Volume (Units) Analysis, By Market, 2019-2024
- 7.2.1. By Country
- 7.2.2. By Product
- 7.2.3. By Application
- 7.2.4. By End User
7.3. Current Market Size (US$ Mn) Analysis and Forecast, By Country, 2025-2032
- 7.3.1. U.S.
- 7.3.2. Canada
7.4. Current Market Size (US$ Mn) and Volume (Units) Analysis and Forecast, By Product, 2025-2032
- 7.4.1. TEER Measurement Systems
- 7.4.2. Consumables
  - 7.4.2.1. Electrodes & Probes
  - 7.4.2.2. Cell Culture Membranes
  - 7.4.2.3. Buffers
  - 7.4.2.4. Others
7.5. Current Market Size (US$ Mn) Analysis and Forecast, By Application, 2025-2032
- 7.5.1. Barrier Integrity Assessment
- 7.5.2. Drug Permeability Studies
- 7.5.3. Tissue Engineering
- 7.5.4. Toxicology
- 7.5.5. Others
7.6. Current Market Size (US$ Mn) Analysis and Forecast, By End User, 2025-2032
- 7.6.1. Pharmaceutical and Biotechnology Companies
- 7.6.2. Contract Research Organizations
- 7.6.3. Academic and Research Institutes
7.7. Market Attractiveness Analysis

8. Europe Impedance-based TEER Measurement Systems Market Outlook:

8.1. Key Highlights
8.2. Historical Market Size (US$ Mn) and Volume (Units) Analysis, By Market, 2019-2024
- 8.2.1. By Country
- 8.2.2. By Product
- 8.2.3. By Application
- 8.2.4. By End User
8.3. Current Market Size (US$ Mn) Analysis and Forecast, By Country, 2025-2032
- 8.3.1. Germany
- 8.3.2. France
- 8.3.3. U.K.
- 8.3.4. Italy
- 8.3.5. Spain
- 8.3.6. Russia
- 8.3.7. Turkey
- 8.3.8. Rest of Europe
8.4. Current Market Size (US$ Mn) and Volume (Units) Analysis and Forecast, By Product, 2025-2032
- 8.4.1. TEER Measurement Systems
- 8.4.2. Consumables
  - 8.4.2.1. Electrodes & Probes
  - 8.4.2.2. Cell Culture Membranes
  - 8.4.2.3. Buffers
  - 8.4.2.4. Others
8.5. Current Market Size (US$ Mn) Analysis and Forecast, By Application, 2025-2032
- 8.5.1. Barrier Integrity Assessment
- 8.5.2. Drug Permeability Studies
- 8.5.3. Tissue Engineering
- 8.5.4. Toxicology
- 8.5.5. Others
8.6. Current Market Size (US$ Mn) Analysis and Forecast, By End User, 2025-2032
- 8.6.1. Pharmaceutical and Biotechnology Companies
- 8.6.2. Contract Research Organizations
- 8.6.3. Academic and Research Institutes
8.7. Market Attractiveness Analysis

9. East Asia Impedance-based TEER Measurement Systems Market Outlook:

9.1. Key Highlights
9.2. Historical Market Size (US$ Mn) and Volume (Units) Analysis, By Market, 2019-2024
- 9.2.1. By Country
- 9.2.2. By Product
- 9.2.3. By Application
- 9.2.4. By End User
9.3. Current Market Size (US$ Mn) Analysis and Forecast, By Country, 2025-2032
- 9.3.1. China
- 9.3.2. Japan
- 9.3.3. South Korea
9.4. Current Market Size (US$ Mn) and Volume (Units) Analysis and Forecast, By Product, 2025-2032
- 9.4.1. TEER Measurement Systems
- 9.4.2. Consumables
  - 9.4.2.1. Electrodes & Probes
  - 9.4.2.2. Cell Culture Membranes
  - 9.4.2.3. Buffers
  - 9.4.2.4. Others
9.5. Current Market Size (US$ Mn) Analysis and Forecast, By Application, 2025-2032
- 9.5.1. Barrier Integrity Assessment
- 9.5.2. Drug Permeability Studies
- 9.5.3. Tissue Engineering
- 9.5.4. Toxicology
- 9.5.5. Others
9.6. Current Market Size (US$ Mn) Analysis and Forecast, By End User, 2025-2032
- 9.6.1. Pharmaceutical and Biotechnology Companies
- 9.6.2. Contract Research Organizations
- 9.6.3. Academic and Research Institutes
9.7. Market Attractiveness Analysis

10. South Asia & Oceania Impedance-based TEER Measurement Systems Market Outlook:

10.1. Key Highlights
10.2. Historical Market Size (US$ Mn) and Volume (Units) Analysis, By Market, 2019-2024
- 10.2.1. By Country
- 10.2.2. By Product
- 10.2.3. By Application
- 10.2.4. By End User
10.3. Current Market Size (US$ Mn) Analysis and Forecast, By Country, 2025-2032
- 10.3.1. India
- 10.3.2. Southeast Asia
- 10.3.3. ANZ
- 10.3.4. Rest of South Asia & Oceania
10.4. Current Market Size (US$ Mn) and Volume (Units) Analysis and Forecast, By Product, 2025-2032
- 10.4.1. TEER Measurement Systems
- 10.4.2. Consumables
  - 10.4.2.1. Electrodes & Probes
  - 10.4.2.2. Cell Culture Membranes
  - 10.4.2.3. Buffers
  - 10.4.2.4. Others
10.5. Current Market Size (US$ Mn) Analysis and Forecast, By Application, 2025-2032
- 10.5.1. Barrier Integrity Assessment
- 10.5.2. Drug Permeability Studies
- 10.5.3. Tissue Engineering
- 10.5.4. Toxicology
- 10.5.5. Others
10.6. Current Market Size (US$ Mn) Analysis and Forecast, By End User, 2025-2032
- 10.6.1. Pharmaceutical and Biotechnology Companies
- 10.6.2. Contract Research Organizations
- 10.6.3. Academic and Research Institutes
10.7. Market Attractiveness Analysis

11. Latin America Impedance-based TEER Measurement Systems Market Outlook:

11.1. Key Highlights
11.2. Historical Market Size (US$ Mn) and Volume (Units) Analysis, By Market, 2019-2024
- 11.2.1. By Country
- 11.2.2. By Product
- 11.2.3. By Application
- 11.2.4. By End User
11.3. Current Market Size (US$ Mn) Analysis and Forecast, By Country, 2025-2032
- 11.3.1. Brazil
- 11.3.2. Mexico
- 11.3.3. Rest of Latin America
11.4. Current Market Size (US$ Mn) and Volume (Units) Analysis and Forecast, By Product, 2025-2032
- 11.4.1. TEER Measurement Systems
- 11.4.2. Consumables
  - 11.4.2.1. Electrodes & Probes
  - 11.4.2.2. Cell Culture Membranes
  - 11.4.2.3. Buffers
  - 11.4.2.4. Others
11.5. Current Market Size (US$ Mn) Analysis and Forecast, By Application, 2025-2032
- 11.5.1. Barrier Integrity Assessment
- 11.5.2. Drug Permeability Studies
- 11.5.3. Tissue Engineering
- 11.5.4. Toxicology
- 11.5.5. Others
11.6. Current Market Size (US$ Mn) Analysis and Forecast, By End User, 2025-2032
- 11.6.1. Pharmaceutical and Biotechnology Companies
- 11.6.2. Contract Research Organizations
- 11.6.3. Academic and Research Institutes
11.7. Market Attractiveness Analysis

12. Middle East & Africa Impedance-based TEER Measurement Systems Market Outlook:

12.1. Key Highlights
12.2. Historical Market Size (US$ Mn) and Volume (Units) Analysis, By Market, 2019-2024
- 12.2.1. By Country
- 12.2.2. By Product
- 12.2.3. By Application
- 12.2.4. By End User
12.3. Current Market Size (US$ Mn) Analysis and Forecast, By Country, 2025-2032
- 12.3.1. GCC Countries
- 12.3.2. Egypt
- 12.3.3. South Africa
- 12.3.4. Northern Africa
- 12.3.5. Rest of Middle East & Africa
12.4. Current Market Size (US$ Mn) and Volume (Units) Analysis and Forecast, By Product, 2025-2032
- 12.4.1. TEER Measurement Systems
- 12.4.2. Consumables
  - 12.4.2.1. Electrodes & Probes
  - 12.4.2.2. Cell Culture Membranes
  - 12.4.2.3. Buffers
  - 12.4.2.4. Others
12.5. Current Market Size (US$ Mn) Analysis and Forecast, By Application, 2025-2032
- 12.5.1. Barrier Integrity Assessment
- 12.5.2. Drug Permeability Studies
- 12.5.3. Tissue Engineering
- 12.5.4. Toxicology
12.6. Current Market Size (US$ Mn) Analysis and Forecast, By End User, 2025-2032
- 12.6.1. Pharmaceutical and Biotechnology Companies
- 12.6.2. Contract Research Organizations
- 12.6.3. Academic and Research Institutes
12.7. Market Attractiveness Analysis

13. Competition Landscape

13.1. Market Share Analysis, 2025
13.2. Market Structure
- 13.2.1. Competition Intensity Mapping by Market
- 13.2.2. Competition Dashboard
13.3. Company Profiles (Details - Overview, Financials, Strategy, Recent Developments)
- 13.3.1. nanoAnalytics GmbH
  - 13.3.1.1. Overview
  - 13.3.1.2. Segments and Product
  - 13.3.1.3. Key Financials
  - 13.3.1.4. Market Developments
  - 13.3.1.5. Market Strategy
- 13.3.2. World Precision Instruments
- 13.3.3. Applied BioPhysics, Inc.
- 13.3.4. Merck KGaA
- 13.3.5. Sciospec Scientific Instruments GmbH
- 13.3.6. Axion BioSystems, Inc
- 13.3.7. SynVivo, Inc.
- 13.3.8. MIMETAS
- 13.3.9. TissUse GmbH
- 13.3.10. Locsense
- 13.3.11. Agilent Technologies, Inc.
- 13.3.12. Corning Incorporated.
- 13.3.13. ibidi GmbH
- 13.3.14. Greiner Bio-One International GmbH
- 13.3.15. Kirkstall Ltd
- 13.3.16. Prime BioScience PTE LTD
- 13.3.17. Courage+Khazaka electronic GmbH
- 13.3.18. Others

14. Appendix

14.1. Research Methodology
14.2. Research Assumptions
14.3. Acronyms and Abbreviations

한글목차

목차

제1장 주요 요약

제2장 시장 개요

제3장 부가가치 인사이트

제4장 가격 동향 분석(2019-2032년)

제5장 세계의 임피던스 기반 TEER 측정 시스템 시장 전망

제6장 세계의 임피던스 기반 TEER 측정 시스템 시장 전망 : 지역별

제7장 북미 임피던스 기반 TEER 측정 시스템 시장 전망

제8장 유럽 임피던스 기반 TEER 측정 시스템 시장 전망

제9장 동아시아 임피던스 기반 TEER 측정 시스템 시장 전망

제10장 남아시아 및 오세아니아의 임피던스 기반 TEER 측정 시스템 시장 전망

제11장 라틴아메리카의 임피던스 기반 TEER 측정 시스템 시장 전망

제12장 중동 및 아프리카의 임피던스 기반 TEER 측정 시스템 시장 전망

제13장 경쟁 구도